Features:-Colored Rings: The first two represent a significant two-digit number. The third band represents the multiplier. Inductance is calculated by multiplying the significant number by ten to the power of the third...
Features:-Colored Rings: The first two represent a significant two-digit number. The third band represents the multiplier. Inductance is calculated by multiplying the significant number by ten to the power of the third...
Features:-Colored Rings: The first two represent a significant two-digit number. The third band represents the multiplier. Inductance is calculated by multiplying the significant number by ten to the power of the third...
Features:-Colored Rings: The first two represent a significant two-digit number. The third band represents the multiplier. Inductance is calculated by multiplying the significant number by ten to the power of the third...
Features:-Colored Rings: The first two represent a significant two-digit number. The third band represents the multiplier. Inductance is calculated by multiplying the significant number by ten to the power of the third...
Features:-Colored Rings: The first two represent a significant two-digit number. The third band represents the multiplier. Inductance is calculated by multiplying the significant number by ten to the power of the third...
Features:-Colored Rings: The first two represent a significant two-digit number. The third band represents the multiplier. Inductance is calculated by multiplying the significant number by ten to the power of the third...
Features:-Colored Rings: The first two represent a significant two-digit number. The third band represents the multiplier. Inductance is calculated by multiplying the significant number by ten to the power of the third...
Features:-Colored Rings: The first two represent a significant two-digit number. The third band represents the multiplier. Inductance is calculated by multiplying the significant number by ten to the power of the third...
